1 |
A breakage kernel for use in population balance modelling of twin screw granulation Wang LG, Pradhan SU, Wassgren C, Barrasso D, Slade D, Litster JD Powder Technology, 363, 525, 2020 |
2 |
Multi-scale modeling of granulation processes: Bi-directional coupling of PBM with DEM via collision frequencies Barrasso D, Ramachandran R Chemical Engineering Research & Design, 93, 304, 2015 |
3 |
A multi-scale, mechanistic model of a wet granulation process using a novel bi-directional PBM-DEM coupling algorithm Barrasso D, Eppinger T, Pereira FE, Aglave R, Debus K, Bermingham SK, Ramachandran R Chemical Engineering Science, 123, 500, 2015 |
4 |
Multi-dimensional population balance model development and validation for a twin screw granulation process Barrasso D, El Hagrasy A, Litster JD, Ramachandran R Powder Technology, 270, 612, 2015 |
5 |
A reduced order PBM-ANN model of a multi-scale PBM-DEM description of a wet granulation process Barrasso D, Tamrakar A, Ramachandran R Chemical Engineering Science, 119, 319, 2014 |
6 |
An extended cell-average technique for a multi-dimensional population balance of granulation describing aggregation and breakage Chaudhury A, Kapadia A, Prakash AV, Barrasso D, Ramachandran R Advanced Powder Technology, 24(6), 962, 2013 |
7 |
Simulation of population balance model-based particulate processes via parallel and distributed computing Prakash AV, Chaudhury A, Barrasso D, Ramachandran R Chemical Engineering Research & Design, 91(7), 1259, 2013 |
8 |
Multi-component population balance modeling of continuous granulation processes: A parametric study and comparison with experimental trends Barrasso D, Walia S, Ramachandran R Powder Technology, 241, 85, 2013 |
9 |
A comparison of model order reduction techniques for a four-dimensional population balance model describing multi-component wet granulation processes Barrasso D, Ramachandran R Chemical Engineering Science, 80, 380, 2012 |